TY - JOUR
T1 - Lifetime risk of diabetes among First Nations and non–First Nations people
JF - Canadian Medical Association Journal
JO - CMAJ
SP - 1147
LP - 1153
DO - 10.1503/cmaj.150787
VL - 188
IS - 16
AU - Turin, Tanvir Chowdhury
AU - Saad, Nathalie
AU - Jun, Min
AU - Tonelli, Marcello
AU - Ma, Zhihai
AU - Barnabe, Cheryl Carmelle Marie
AU - Manns, Braden
AU - Hemmelgarn, Brenda
Y1 - 2016/11/01
UR - http://www.cmaj.ca/content/188/16/1147.abstract
N2 - Background: Lifetime risk is a relatively straightforward measure used to communicate disease burden, representing the cumulative risk of an outcome during the remainder of an individual’s life starting from a disease-free index age. We estimated the lifetime risk of diabetes among men and women in both First Nations and non–First Nations populations using a cohort of adults in a single Canadian province.Methods: We used a population-based cohort consisting of Alberta residents from 1997 to 2008 who were free of diabetes at cohort entry to estimate the lifetime risk of diabetes among First Nations and non–First Nations people. We calculated age-specific incidence rates with the person-year method in 5-year bands. We estimated the sex- and index-age–specific lifetime risk of incident diabetes, after adjusting for the competing risk of death.Results: The cohort included 70 631 First Nations and 2 732 214 non–First Nations people aged 18 years or older. The lifetime risk of diabetes at 20 years of age was 75.6% among men and 87.3% among women in the First Nations group, as compared with 55.6% among men and 46.5% among women in the non–First Nations group. The risk was higher among First Nations people than among non–First Nations people for all index ages and for both sexes. Among non–First Nations people, men had a higher lifetime risk of diabetes than women across all index ages. In contrast, among First Nations people, women had a higher lifetime risk than men across all index ages.Interpretation: About 8 in 10 First Nations people and about 5 in 10 non–First Nations people of young age will develop diabetes in their remaining lifetime. These population-based estimates may help health care planners and decision-makers set priorities and increase public awareness and interest in the prevention of diabetes.
ER -